Lid for a container

ABSTRACT

A lid for covering the open end of a beverage container having: an annular base adapted to detachably and sealably engage with the circumference of a drinking edge of a container; an elevated portion projecting upwardly from the annular base; and a spout; the lid arranged and formed such that when in use with a container containing liquid and wherein the lid is securely fitted to the container a user is able to move the spout between a closed configuration which closes the open end of a container such that liquid is substantially prevented from escaping from the container and a drinking configuration which allows a user to drink the liquid contained within the container and also wherein in use the lid is adapted such that a user can squeeze the container or the elevated portion which results in the spout moving from a closed configuration to a drinking configuration.

CROSS-REFERENCE TO RELATED APPLICATIONS

The current application is a continuation application of U.S.application Ser. No. 16/422,910 filed on May 24, 2019, which is acontinuation-in-part patent application of PCT International PatentApplication No. PCT/IB2017/057397 filed on Nov. 24, 2017, which claimspriority to and the benefits of the New Zealand Patent Application No.720514 filed on Nov. 25, 2016, the contents of which are incorporated intheir entireties by reference herein.

FIELD OF INVENTION

The invention generally relates to a lid for a container. Moreparticularly but not exclusively the invention relates to a lid for abeverage container.

BACKGROUND

Beverages such as takeaway coffee or hot chocolate are usually sold intakeaway cups or containers which have lids applied to them. These lidstypically have an open drinking aperture in them and therefore there isa risk of the liquid spilling (or even injury in the case of hotbeverages) through the aperture. Another known problem with these lidsis that heat can escape through the drinking aperture and in someinstances the lids can come off easily as they do not fit securely tothe cups they are applied to. Even if the beverage is a cold beveragesuch as soft drink or cold coffee, liquid spillage through the aperturewhile drinking is still not desirable because such spill can not onlycreate mess but can also cause stains in clothes, carpets etc.

It is an object of a preferred form of the present invention to go atleast some way towards addressing one or some of the above problems.While this is an object of a preferred embodiment, it should not be seenas a limitation on the scope of the invention as claimed. The object ofthe invention per se is simply to provide the public with a usefulchoice.

As used herein the term “and/or” means “and” or “or”, or both. As usedherein “(s)” following a noun means the plural and/or singular forms ofthe noun. The term “comprising” as used in this specification and claimsmeans “consisting at least in part of”. When interpreting statements inthis specification and claims which include that term, the features,prefaced by that term in each statement, all need to be present butother features can also be present. Related terms such as “comprise” and“comprised” are to be interpreted in the same manner.

SUMMARY OF THE INVENTION

According to one aspect of the invention there is provided a lidclosing, or for closing, the opening of a container that is able tocontain a flowable material, the lid comprising a peripheral regionengaging, or able to engage, about, within, or both about and within,the container, and

-   -   a non-peripheral region inwardly of the peripheral region;    -   wherein the non-peripheral region has a formation        -   i. able to be pressed or already pressed, to a condition            that at least substantially closes a flowable material            egress opening of the non-peripheral region, and        -   ii. able to be released from that condition to allow            material egress from the container via the material egress            opening.

Preferably the condition that at least substantially closes the openingis a stable condition.

Preferably the condition that at least substantially closes the openingis so retained by a catch of the lid (preferably of the non-peripheralregion).

Preferably the formation is a spout.

Preferably the formation is triangular in plan shape having a baseadjacent the material egress opening and an apex that is more proximatean opposed edge of the non-peripheral region.

In a second aspect the present invention may be said to be a lidclosing, or for closing, the opening of a container that is able tocontain a flowable material, the lid comprising a peripheral regionengaging, or able to engage, about, within or both about and within thecontainer at the opening of the container and

-   -   a non-peripheral region inwardly of the peripheral region;    -   wherein the non-peripheral region has a formation        -   i. able to be pressed, or already pressed, to a retainable            or retained condition that at least substantially closes a            flowable material egress opening of the non-peripheral            region and        -   ii. able to be released from that condition to allow            flowable material egress via the opening.

Preferably the formation is live hinged save for where it is to definepart of the material egress opening.

Preferably the formation is live hinged from the remainder of thenon-peripheral region, save for where it is to define part of thematerial egress opening.

Preferably the non-peripheral region includes a planar region and theformation.

Preferably the live hinging (live hinged formation) is in a depressionof the non-peripheral region preferably thereby to enable retention ofpart of the formation inwardly of the peripheral region.

Preferably the non-peripheral region includes a planar region and theformation intermediate of which the depression is located.

Preferably, when not retained, the formation can assume a stablecondition above the peripheral region.

Preferably when not retained, the formation can assume a stablecondition above the peripheral region that corresponds to the opencondition of the egress opening.

Preferably the peripheral region is annular.

Preferably the non-peripheral region has an annular periphery.

Preferably the formation is of substantially a triangular form whenviewed in plan but with a convex curvature at least at where theformation is to define part of the material egress opening.

Preferably the formation is biased to its material egress condition.

Preferably the formation is elongate and preferably substantiallysubdivides (preferably bisects) the non-peripheral region.

Preferably the formation extends across a majority of the distance ofthe non-peripheral region inwardly of the peripheral region.

Preferably capture of part of the formation is required for retention ofthe formation in its closing condition.

Preferably capture of the non-hinged part of the formation is requiredfor retention of the formation in its closing condition.

Preferably the material egress opening is in part arcuate when viewed inside elevation.

Preferably the non-peripheral portion can be directly or indirectlysqueezed in a horizontal direction perpendicular to the elongatedirection of the formation, the squeezing causing the catch to displacerelative to the formation and thereby releasing the formation fromretention.

Preferably a rim of the formation defines the actuate profile of theopening.

Preferably the rim of the formation in plan view is also arcuate.

Preferably the lid is of a thin walled construction.

Preferably the flowable material is a liquid material.

Preferably the liquid material is a beverage.

In a further aspect the present invention may be said to be a lid forcovering a rim defined open end of a container that can contain aflowable material, the lid comprising:

-   -   an annular base adapted to detachably engage the rim of the        container;    -   an elevated wall portion projecting upwardly from the annular        base; and    -   a spout;        the lid arranged and formed such that when in use, with a        container containing a flowable material and the lid is fitted        to the container, a user is able to move the spout between a        closed configuration which closes the open end of the container        such that the material is substantially prevented from escaping        from the container and an open configuration which allows a user        to pour the material contained within the container and also        wherein in use the lid is adapted such that a user can squeeze        the container or the lid which results in the spout moving from        the closed configuration to the open configuration.

Preferably the spout is hinged.

Preferably the spout has a tab adapted such that a user can pull the tabto move the spout to an open configuration or push the tab to move thespout to a closed configuration.

Preferably the elevated portion is substantially annular.

Preferably the elevated portion is greater in height above the base in afirst side wall portion than a diametrically opposed second side wallportion.

Preferably the first side portion is about 10 mm in height and thesecond side portion is about 8 mm in height above the base.

Preferably the lid has an inner annular wall adapted to engage with theinside wall of a container.

Preferably the elevated portion (preferably an inward facing wallthereof) is adapted and configured to releasably engage with the spoutwhen the spout is in a closed configuration.

Preferably the elevated portion comprises a catch which is adapted toreleasably receive part of the spout when it is in a closedconfiguration.

Preferably the elevated portion comprises a catch which is adapted toreleasably receive part of the spout when it is in a closedconfiguration, the spout biased by the hinge to the open configurationbut prevented to moving to the open configuration when the spout isreceived by the catch.

Preferably it is made from material(s) which is/are biodegradable.

Preferably the lid is made substantially from biodegradable plastic.

In a further aspect the present invention may be said to be a lid asherein described when in use with a container.

Preferably the container is a disposable hot beverage container.

Preferably a user can squeeze the container and/or lid, the squeezingresulting in the spout moving from a closed configuration to an openconfiguration when in the closed configuration.

Preferably a user can squeeze the container and/or lid in a directionparallel to the direction in which the spout engages and disengages withthe catch, the squeezing resulting in the spout moving from a closedconfiguration to an open configuration when in the closed configuration.

Preferably in use a user can squeeze the elevated portion which resultsin the spout, when in the closed configuration, moving from the closedconfiguration to the open configuration.

Preferably in use a user can squeeze the annular base which results inthe spout, when in the closed configuration, moving from the closedconfiguration to the open configuration.

In still a further aspect the present invention may be said to be a lidclosing, or for closing, the opening of a container that is able tocontain a flowable material, the lid comprising a peripheral regionengaging, or able to engage, about, within or both about and within thecontainer at the opening of the container and

-   -   a lid top provided inwardly of the peripheral region;    -   wherein the lid top includes an integrally formed spout        formation that, by a live hinge, is substantially separated from        the rest of the lid top, the spout formation:        -   i. able to be pressed, or already pressed, to a retainable            or retained condition that at least substantially closes a            flowable material egress opening of the non-peripheral            region and        -   ii. able to be released from that condition to allow            flowable material egress via the opening.

Preferably the spout formation is elongate and extends across at leasthalf of the lid top.

Preferably spout formation extends at least 75% across the lid top.

Preferably the spout formation is elongate and straight and extends froma first peripheral region of the lid top towards an opposed peripheralregion of the lid top, the egress opening provided at said firstperipheral region.

Preferably the egress opening is defined by the end of the spoutformation and the first mentioned peripheral region.

Preferably the egress opening is able to be closed when the spoutformation is depresses, the closure being created by end of the spoutand the first mentioned peripheral region coming into contact with eachother.

Preferably when depressed, the end of the spout formation is closer tothe first mentioned peripheral region than when released.

Preferably the end of the spout is able to be retained in the depressedcondition by a catch of the first mentioned peripheral region.

Preferably the first mentioned peripheral region comprises an annularrim able to be secured to the opening rim of the container and anannular wall extending upwardly relative the rim to the lid top.

Preferably the annular wall together with the end of the spout formationform the egress opening.

Preferably the annular wall extends from the annular rim to the lid top.

Preferably the annular wall is substantially vertical.

Preferably the annular wall has a catch formation provided with whichthe end of the spout can lodge to be retained in the depressedcondition.

Preferably the annular wall at the catch formation can be caused todisplace relative the end of the spout in a radial direction upon acompression of the lid top in a direction lateral to the elongatedirection of the spout formation.

In a further aspect the present invention may be said to be a lid toreleasably engage to the rim of an open topped cup or container, the lidcomprising

-   -   a. a lip engaging, or able to engage, about, within or both        about and within the rim of the container,    -   b. an annular wall extending upwardly relative the lip,    -   c. a lid top at the top of the annular wall the lid top        comprising an elongate formation presenting a spout, the end of        which is elevated above the annular wall and defines a closable        opening with and at the annular wall via which material in the        container can egress, the formation separated at least partially        from the remainder of the lid top by a live hinge to allow:        -   i. the spout to be depressed towards the lip to cause the            end of the spout to contact the annular wall to thereby            close the closable opening, and        -   ii. the lid top to be compressed in a direction lateral to            the elongate direction of the formation to deform the spout            and the annular wall.

Preferably the end of spout when depressed is able to lodge under acatch formation of the annular wall (preferably provides on the insideof the wall) to be retained by the catch formation and retain theclosable opening in the closed condition.

Preferably the lodged condition of the spout with the catch is able tobe dislodged upon a compression of the lid top causing relative movementof the end of the spout with the catch.

Preferably the live hinge is adapted and configured to bias the spoutaway from the depressed condition of the spout so that when the spout isdislodged from the catch the spout assumes a condition where thecloseably opening is open.

Preferably the lid is able to be compressed but naturally moves back toits non-compressed state.

Preferably the live hinge is of a resiliently deformable nature.

Preferably the spout of a resiliently deformable nature.

In a further aspect, the invention may also be said to reside in a lidfor closing an opening of a container that is adapted to contain aflowable material, the lid comprising a peripheral region engaging, orable to engage, about, within, or both about and within, the container,and

-   -   a non-peripheral region inwardly of the peripheral region;    -   wherein the non-peripheral region has a formation, the formation        being        -   i. able to be pressed or already pressed, to a closed            condition that at least substantially closes a flowable            material egress opening of the non-peripheral region, and        -   ii. able to be released from the closed condition to an open            condition to allow material egress from the container via            the material egress opening.

Preferably, the formation is a spout.

Preferably, the formation is triangular in shape having a base adjacentthe material egress opening and an apex that is more proximate anopposed edge of the non-peripheral region.

Preferably, the formation is live hinged save for where it is to definepart of the material egress opening.

Preferably, the live hinging (live hinged formation) is in a depressionof the non-peripheral region preferably thereby to enable retention ofpart of the formation inwardly of the peripheral region.

Preferably, wherein when not retained, the formation assumes a stablecondition above the peripheral region.

Preferably, the peripheral region is annular.

Preferably, the formation is biased to the open condition.

Preferably, the formation extends across over half of distance of thenon-peripheral region inwardly of the peripheral region.

Preferably, the lid comprises a catch that is adapted to capture of partof the formation for retaining the formation in its closing condition.

Preferably, the material egress opening is in part arcuate.

Preferably, the lid comprises an annular internal extension projectingdownwardly from or relative to the base, the annular internal extensionbeing configured to fit at least partially inside the container duringuse.

Preferably, the formation extends from or proximal to a lid top to ortowards a base of the lid with the material egress opening facingtowards the lid top.

Preferably, the lid further comprises a first gripping portion formed atone side of the formation and a second gripping portion formed on atanother side of the spout, wherein squeezing of the first and secondgripping portions is adapted to cause the formation to transition fromthe closed condition to the open condition.

Preferably, the gripping portion comprises a textured profile tofacilitate gripping using user's finger(s).

Preferably, wherein applying the force on the formation towards theperipheral region is adapted to cause the formation to transition fromthe open condition to the closed condition.

Preferably, the lid further comprises an air circulation hole forimproving the fluid flow.

Preferably, the lid further comprises a horizontal surface to allowstacking of the container onto the lid.

Preferably, the lid comprises:

-   -   an annular base adapted to detachably engage the rim of the        container;    -   an elevated wall portion projecting upwardly from the annular        base; and    -   a spout;        the lid arranged and formed such that when in use, with a        container containing a flowable material and the lid is fitted        to the container, a user is able to move the spout between the        closed condition which closes the open end of the container such        that the material is substantially prevented from escaping from        the container and an open condition which allows a user to pour        the material contained within the container and also wherein in        use the lid is adapted such that a user can squeeze the        container or the lid which results in the spout moving from the        closed condition to the open condition.

Preferably, the spout is hinged.

Preferably, the spout has a tab adapted such that a user can pull thetab to move the spout to the open condition or push the tab to move thespout to a closed condition.

Preferably, the elevated portion is substantially annular.

Preferably, the elevated portion is greater in height above the base ina first side wall portion than a diametrically opposed second side wallportion.

Preferably, the first side wall portion is about 10 mm in height and thesecond side wall portion is about 8 mm in height above the base.

Preferably, the lid has an inner annular wall adapted to engage with theinside wall of a container.

Preferably, the elevated portion (preferably an inward facing wallthereof) is adapted and configured to releasably engage with the spoutwhen the spout is in the closed condition.

Preferably, the lid comprises a catch which is adapted to releasablyreceive part of the spout when it is in a closed condition.

Preferably, the catch is located at the lid top.

Preferably, the catch is located at the elevated portion.

Preferably, the catch is adapted to releasably receive part of the spoutwhen the spout is in a closed condition, the spout being biased by thehinge to the open condition but prevented to moving to the opencondition when the spout is received by the catch.

Preferably, the lid made from material(s) which is/are biodegradable.

Preferably, the lid is made substantially from biodegradable plastic.

Preferably, the lid is adapted to be in use with a container.

Preferably, the container is a disposable hot beverage container.

Preferably, when in a closed condition, application of force to thecontainer and/or lid by the squeezing results in the spout moving fromthe closed condition to the open condition.

Preferably, when in closed condition, the application of force bysqueezing the container and/or lid in a direction parallel to thedirection in which the spout engages and disengages with the catchresults in the spout moving from the closed condition to the opencondition.

Preferably, application of force by squeezing the elevated portionresults in the spout, when in the closed condition, moving from theclosed condition to the open condition.

Preferably, application of force by squeezing the annular base resultsin the spout, when in the closed condition, moving from the closedcondition to the open condition.

In a further aspect, the invention may also be said to reside in a lidto releasably engage to the rim of an open topped cup or container, thelid comprising:

-   -   a. a lip engaging, or able to engage, about, within or both        about and within the rim of the container,    -   b. an annular wall extending upwardly relative the lip,    -   c. a lid top at the top of the annular wall, the annular wall        comprising an elongate formation presenting a spout, the end of        which is elevated above the lid top and defines a closable        opening with and at the lid top via which material in the        container can egress, the formation separated at least partially        from the remainder of the annular wall by a live hinge to allow:        -   i. the spout to be depressed towards the annular wall to            cause the end of the spout to contact the lid top to thereby            close the closable opening, and        -   ii. the annular wall to be compressed in a direction lateral            to the elongate direction of the formation to lift the spout            away from the annular wall to thereby open the closable            opening.

In a further aspect the present invention may also be said to be alidded container comprising a lid as herein described and a rim definedopen top container at where the lid is secured.

In a further aspect the present invention may also be said to be acontainer with a lid located at the top of a container portion of thecontainer, the lid as herein described.

Preferably the lid is integrally formed with the container portion.

Preferably the lid is removable from the container portion.

These and other features, objects and advantages of the presentinvention will be readily apparent to persons of ordinary skill in theart upon reading the entirety of this disclosure, which includes theaccompanying drawings and claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Some preferred embodiments of the invention will now be described by wayof example and with reference to the accompanying photos and drawings,of which:

FIG. 1 is a perspective side view of a lid having a spout which is in anopen configuration;

FIG. 2 is a side view of the lid wherein the spout is in an openconfiguration;

FIG. 3 is a front view of the lid wherein the spout is in an openconfiguration;

FIG. 4 is a side view of the lid wherein the spout is in a closedconfiguration;

FIG. 5 is a side view of an alternative embodiment of a lid having ahinged spout which is in an open configuration;

FIG. 6 is a perspective view of the lid with the spout in an openconfiguration;

FIG. 7 is an alternative perspective view of the lid with the spout inan open configuration;

FIG. 8 is a front view of the lid wherein the spout is in an openconfiguration;

FIG. 9 is a rear view of the lid wherein the spout is in an openconfiguration;

FIG. 10 is a top view of the lid wherein the spout is in an openconfiguration; and

FIG. 11 is a bottom view of the lid wherein the spout is in an openconfiguration.

FIG. 12 is a top perspective view of a lid of a 1^(st) configuration.

FIG. 13 is a top perspective view of a lid of a 2^(nd) configuration.

FIG. 14 is a top view of the lid of the 1^(st) configuration.

FIG. 15 is a top view of the lid of the 2^(nd) configuration.

FIG. 16 is a cross sectional view along the length the spout of a lid inthe open configuration.

FIG. 17 is a cross sectional view along the length of the spout of a lidin the closed configuration.

FIG. 18 is a front view of a lid with the spout in the openconfiguration.

FIG. 19 is a front view of a lid with the spout in the closedconfiguration.

FIG. 20 is a cross sectional view of a lid along the length of the spoutin the closed configuration, attached to a container.

FIG. 21 shows a cross sectional view of a lid attached to a container.

FIG. 22 shows a plan cross sectional detail view of the catch.

FIG. 23 shows a side schematic cross sectional detail view of the catch.

FIG. 24 shows a side schematic view of the spout in an open and closedconfiguration.

FIGS. 25 and 26 show a lid and a container.

FIG. 27 is a front view of a lid an alternative embodiment of a lid.

FIG. 28 is a rear view of the lid of FIG. 27.

FIG. 29 is a top plan view of the lid of FIG. 27 with the spout in theopen configuration.

FIG. 30 is a side view of the lid of FIG. 27 with the spout in the openconfiguration.

FIG. 31 is a perspective view of the lid of FIG. 27 with the spout inthe open configuration, the lid being attached to a container.

FIG. 32 is a side view of the lid and container of FIG. 31 showing thespout in the open configuration

FIG. 33 is a side view of the lid and container of FIG. 31 showing thespout in the closed configuration.

FIG. 34 is a partial perspective view of the lid and container of FIG.31 showing the spout in the open configuration.

FIG. 35 is a partial perspective view of the lid and container of FIG.31 showing the direction of force to be applied to cause the spout tomove from the open configuration to the closed configuration.

FIG. 36 is a partial perspective view of the lid and container of FIG.31 showing the spout in the closed configuration upon application offorce in the direction shown in FIG. 35.

FIG. 37 is a partial perspective view of the lid FIG. 27 showing thedirection of the force to be applied using a user's finger in order tocause the spout to move from the open configuration to the closedconfiguration.

FIG. 38 is a partial perspective view of the lid FIG. 27 showing thespout being move from the open configuration to the closed configurationupon application of force using the user's finger in the direction shownin FIG. 37.

FIG. 39 is a partial perspective view of the lid and container of FIG.31 showing the direction of force to be applied in order to cause thespout to move from the closed configuration to the open configuration.

FIG. 40 is a partial perspective view of the lid and container of FIG.31 showing the spout in the open configuration upon application of forcein the direction shown in FIG. 39.

FIG. 41 shows a side schematic view of the spout of the lid of FIG. 27in the open configuration.

FIG. 42 shows a side schematic view of the spout of the lid of FIG. 27in the closed configuration.

FIG. 43 is a top plan view of the lid of FIG. 27 showing an aircirculation hole.

DETAILED DESCRIPTION

FIG. 1 shows a lid 1 for covering the open end of a container 20. Thecontainer 20 may be a beverage cup such as a coffee cup as an example.It may be disposable. The cup is preferably made from material thatallows its side walls to flex inwards. The lid 1 is most preferably usedon a takeaway disposable beverage container 20 with an annular rim thatdefines the open top of the container. Other container or containertypes are also envisaged. The material to be contained can be of manytypes but is preferably a hot beverage or such as coffee, tea, soup orhot chocolate etc. The beverage can be a cold beverage too such as coldcoffee, smoothies, soft drinks, condiments etc. The lid 1 may bepermanently secured to the container or removable retained to thecontainer 20.

The lid 1 preferably has an annular base 2 with an annular rim 10. Thebase 2 is adapted to releasably engage with the outside of the top of acontainer 20 (as shown in FIG. 20 for example) such that in use itpreferably substantially sealably fits about the circumference of anedge 21 of a container 20.

Dependent from the base 2 is preferably an annular elevated portion 3.The annular elevated portion may comprise of a lid top and an annularwall that extends between the lid top and the base. It is preferablyperipherally inward of the base (when seen in plan view). A first region4 of the elevated portion 3 is preferably of greater in height above thebase than an opposite second region 5. The difference in elevationbetween the two regions 4 and 5 is not critical to the operation of theopening and retaining of a spout 7. The difference in height between thefirst region 4 and second region 5, of the elevated portion 3 may helpto create a pitch which allows liquid in the container when in use toflow further into a user's mouth.

The first and second regions 4,5 are preferably diametrically opposedeach other on the elevated portion 3.

As shown in FIGS. 2 and 21, projecting downwardly from or relative tothe base 2 may be an annular internal extension 6 which when in use fitsinside a container. The extension 6 is configured to assist applicationof the lid 1 to the container and to make the attachment of the lid 1 tothe container more stable. The extension 6 preferably has a snug fitinside the inside wall 22 of the container. The extension 6 further aidsprevention of liquid leaking out between the container and the lid, bycreating a further seal between the extension 6 and the inside wall 22of the container.

Forming part of the elevated portion 3 is a formation to define thespout 7. It is herein also described as being a formation of the lidtop. It is preferably provided as part of the lid top. The spout 7 ispreferably elongate. Preferably the spout is hinged at its periphery.The hinge is elongate and runs about at least part of the spout.Preferably the spout is formed of or as a pliable member or region ofthe elevated annular portion (eg at the lid top) and preferably extendsacross a substantial portion of the footprint of the lid 1. The hingemay be a hinge region at each side of the spout. The hinge may extendabout the entire connected periphery of the spout 7. In the preferredembodiment the hinge is a living hinge. The hingeable nature of thehinge is at least in part determined by the stiffness and flexibility ofmaterial that it is made from, as well as the preformed configurationand shape of the hinge. The hinge allows the lid top to be compresses ina direction lateral to the elongate direction of the spout 7. Preferablythe spout 7 extends from a peripheral region of the lid top and to ortowards an opposite peripheral region of the lid top. Preferably thespout 7 is located to substantially dissect and preferably bisect theelevated portion 3 (lid top).

Preferably the spout 7 is of substantially a triangular form (preferablyan isosceles triangle) when viewed in plan where the base of thetriangle is at or near the periphery of the elevated annular portion andthe apex is proximate an opposed region of the periphery of the elevatedannular portion. The spout preferably has a convex upward curvature overits length as shown drawings when the spout is in the openconfiguration. The spout is shown in the open or drinking configurationin FIGS. 1-3, 5-13, 16 and 18.

The lid 1 has an aperture 8 via which liquid can flow so that a user candrink the contents of the container when the spout 7 is in the open ordrinking configuration. In one embodiment, the aperture 8 is at theelevated first region 4. When the spout 7 is in a closed configurationthis aperture 8 is closed. Preferably the closed aperture 8 creates aseal sufficient to help prevent liquid from the egressing from theaperture 8. The seal is preferably established between the end 12 of thespout and the annular wall of the elevated portion 3.

The hinge facilitates the spout 7 to move between the open and closedcondition/configuration. The hinge preferably biases the spout to theopen configuration. In some forms, the hinge may also be able to biasthe spout to the closed configuration. This may occur when the spout 7is in the closed configuration. In other forms the spout 7 may beretained, against the bias to the open configuration, in the closedconfiguration.

In one embodiment, the spout 7 in the open condition is preferably morestable than the spout 7 in the closed condition. I.e. the spout 7 may bebiased towards being in the open condition by the hinge. When in theclosed condition, pulling the spout 7 upwards away from the annular baseand/or squeezing of the lid 1, will or will cause to move (eg spring)the spout 7 towards the open configuration. Preferably the direction ofthe squeezing at the periphery is orthogonal to the elongate directionof the spout 7. I.e. the squeezing forces from a user are on either sideof the spout 7. This will be explained more later. Preferably onlypushing on the spout 7 downwards will force the spout 7 to its closedcondition.

Moving from the closed condition to the open condition, the spout 7 mayutilise an over centre type mechanism. In such a form, to move from theclosed condition, to the open condition, the spout 7 must pass over aparticular point where it is biased towards the open configuration. Oncethe spout 7 has gone past its over centre point, it does not easilyreturn to the closed configuration without an external input. In otherembodiments, the spout 7 always wants to be in it is open configurationeven when closed, and is only in its closed configuration when activelyretained in its closed configuration. This may be achieved by a catch11.

The spout 7 may be retained in its closed condition by the catch 11.When a user, or other means such as a manufacturing machine or packingmachine, closes the open spout 7A (wherein A represents the openconfiguration) to the closed condition the closed spout 7B (wherein Brepresents the closed configuration) can catch on the catch 11 as shownin the schematic FIG. 24. The way of manufacturing the catch 11 may beby a number of means, however in the preferred embodiment the catch 11is an undercut formed in the annular wall at for example first region 4.The end 12 of the spout 7 can lodge under the undercut when the spout isin the closed condition. When the spout 7 is not retained by the catch11, it can return to its open condition. This may occur under the biascaused by the hinge. In other embodiments the catch may be a flexiblehook, barb, interference fit or other similar element or device orfeature.

The preferred action of squeezing the annular base 2, or lid 1, or cup20, in a direction orthogonal to the direction of the spout, and towardsthe centre of the annular base 2, will have the effect of moving thecatch 11 away from the end 12 of the spout 7. In one embodiment, wherethe container 20 is a circular rimmed cup, the effect of squeezing thecontainer 20 to a more elliptical shape will move the catch 11 away fromthe end 12 so as to release from the spout 7. The spout can then move orcaused to be moved to its open condition. As described above, once thespout 7 is released from the catch 11 it can return to the opencondition, i.e., open configuration.

Another method of releasing the spout 7, is to pull the catch 11 awayfrom the end 12. A further method of releasing the spout 7, is to pullup on the spout 7. The effect of pulling on the spout 7 will merely bendthe spout 7 so that it can get out from underneath the catch 11.

The end 12 of the spout 7 is connected at sides 14 (as shown in FIG. 12)to the annular wall and/or the lid top.

A further preferred feature of the spout 7 is that it's “pivot point”13, as shown in FIGS. 12, 13 and 24, is preferably lower than the sides14. This allows the lid to be manufactured as one piece, yet still allowthe spout 7 to be long enough so that the end 12 of the spout is stillable to be caught, and retained, by the catch 11. The sides 14 providethe flex for the spout to allow the end 12 of the spout to displacedownwards so as to get caught under the catch 11.

The spout 7 and aperture 8 may be adapted such that they help to providea natural flow of liquid when open and in use. The dimensions of thespout and aperture 8 based around at least one of (a) typical mouth sizeof users (b) liquid volumes to escape and (c) comfortable angles for theliquid to pour into a user's mouth.

In one embodiment, the spout 7 may have a tab 9. This is preferablyshaped like a fin. The purpose of the tab 9 is so that a user hasanother means, aside from the preferred sidewall squeezing, to open thehinged spout 7 when it is in its closed configuration. It may also beused to push down on the tab 9 to close the spout 7 when it is in itsopen configuration. FIGS. 1 and 2 both show the lid 1 with the aperture8 fully open whereas FIG. 3 shows the lid 1 with the aperture 8 onlyslightly open. In some embodiments instead of integrally forming part ofthe raised annular portion 3 the spout 7 and tab 9 are separate partswhich are connected to the raised annular portion 3 and each other withan adhesive or by welding or the like.

FIG. 4 shows the hinged spout 7 in a closed position. The hinged spout 7which has a lengthwise hinge allows the spout 7 to open and close withinitself and has a triangular like shape when looking in plan. The spoutis preferably semi-conical in form. As shown in FIG. 4 the end 12 of thehinged spout 7, when it is in a closed configuration, may sitsubstantially sealably against the inside of the annular wall ofelevated portion 3 and/or against a downward facing surface of the catch11. As described above there is preferably a small shelf or catch of theelevated portion 3 (at the annular wall) to help secure the spout 7 suchthat it may be retained by the catch 11 in its closed configuration. Inuse a user can pull open the spout 7 from its closed condition, bypulling on the tab 9, alternatively, the user can squeeze the cup orparts of it, towards a more elliptical shape so the shelf or catch ismoved away from the end of the spout 7. In some embodiments thecontainer (which the lid is covering the opening of the container) whensqueezed will result in the spout 7 popping up by itself. In which casea tab 9 is not needed. The lid itself (either the elevated annularportion 3 or the base 2) can also be squeezed which also results in thespout 7 popping up by itself from its closed condition. FIG. 5 showsanother embodiment of a lid 101 for covering the open end of a beveragecontainer. It is envisioned that all features and constructionsdiscussed above, may be applied to this embodiment and various otherembodiments of the lid. The numbering system is also retained howeverthis embodiment is prefixed with 10.

The lid 101 has an annular base 102 with an annular rim which is adaptedto releasably engage with the outside of the top of a container suchthat in use it preferably substantially sealably fits about thecircumference of a drinking edge of a container. The diameter of the lid101 can be manufactured according to the size of the container.Projecting upwardly from the base 102 is an annular elevated portion 103and as can be seen one first region 104 of the elevated portion 103 isgreater in height than the other second region 5. The first region 104of the elevated portion 103 is preferably about 10 mm in height from thebase 102 whereas the second region 105 is preferably about 8 mm inheight from the base 102. Projecting downwardly from the base 102 may bean annular internal extension 106 which when in use fits inside acontainer to assist application to the container and to make theattachment of the lid 101 to the container more stable, this isdescribed above as the extension 6.

As shown in FIGS. 5-10 the lid also has a spout 107 which is shown inthe open or drinking configuration. As can be seen in FIGS. 6 and 8 thelid 101 has an aperture 108 which liquid can flow from so that a usercan drink the contents of the container. The width of the aperture 108at the opening of the spout 107 is preferably about 26 mm wide. Themaximum height of the opening of the spout 107 when in a drinkingconfiguration is preferably about 7 mm, however it may be between 4 and30 mm depending on the size of the container and/or spout. The spout 107and the aperture 108 have been adapted such that they may provide anatural flow of liquid when in use in the spout's open condition, withdimensions based around for example a typical mouth size of users,liquid volumes to escape and comfortable angles for the liquid to pourinto a user's mouth. The difference in height between the two regions104, 105, of the lid 101 creates a pitch which may allow liquid of thecontainer when in use to flow further into a user's mouth. As can beseen on top of the spout 107 is preferably a tab 109 which is shapedlike a fin.

The purpose of the tab 109 is so that a user can pull open the hingedspout 107 when it is in its closed configuration or to push down on thetab 109 to close the spout 107 when it is in its open configuration. Thedistance from the front of the spout 7 to the tab 109 is preferablyabout 12.5 mm. Also, as can be seen in FIG. 7 the top of the annularportion 103 has a recess 110. This may be about 4 mm in depth.

In use, a user places the annular rim of the base 2, 102 around thecircumference of a drinking edge of a disposable container and the innerannular 6, 106 wall inside the container such that a secure fit is made.A user can then decide whether to keep the spout 7, 107 closed totransport the contained liquid and help maintain the temperature of theliquid or to open the spout 7, 107 by either popping the spout 7, 107open or by pulling the tab 9, 109 which results in the spout 7, 107moving to a drinking or open configuration. Once the spout 7, 107 is inthe drinking configuration, a user can drink the liquid contained withinthe container via the aperture 8, 108. As the hinged spout 7, 107 can beopened and closed the user can either finish drinking all the liquid orclose the spout 7, 107 and drink the remaining liquid at a later pointin time.

Those skilled in the art will appreciate that the spout 7, 107 which canbe opened and shut can come in different configurations and shapes andneed not be limited to the embodiments disclosed (e.g. it doesn't needto be lengthwise hinge in a cone or triangle like shape). A closedcondition may mean that some liquid can still escape. It may not be acomplete fluid tight seal. A holding of the container upside down mayfor example allow liquid to trickle from the lid via the closed spout 7,107.

FIGS. 27-43 show a yet another embodiment of a lid 201 for covering theopen end of a beverage container 220. The embodiment of the lid 201, inits design and functionality, largely corresponds the embodiment of thelid 1 of FIG. 1 as described above. In particular, in FIGS. 27-43, likeor identical parts have been given the same reference numeral raised by200. Thus, it is here mainly referred to the explanations given aboveand, primarily, only the differences will be discussed in detail.

As shown in FIGS. 27-43, the lid 201 has an annular base 202 with anannular rim which is adapted to releasably engage with the outside ofthe top of a container 220 such that in use it preferably substantiallysealably fits about the circumference of a drinking edge of a container220. The annular rim may be adapted to releasably engage with theoutside of the top of a container 220, preferably about thecircumference of a drinking edge of a container 220 with a snap fitarrangement. The diameter of the lid 201 can be manufactured accordingto the size of the container 220. Projecting upwardly from the base 202is an annular elevated portion 203 and as can be seen in FIG. 30 onefirst region 204 of the elevated portion 203 is greater in height thanthe other second region 205. The first region 204 of the elevatedportion 203 is preferably about 10 mm in height from the base 202whereas the second region 205 is preferably about 8 mm in height fromthe base 202. Although not shown in FIGS. 27-42, an annular internalextension that is similar to annual internal extension 106 mayoptionally project downwardly from the base 202 which when in use fitsinside a container to assist application to the container and to makethe attachment of the lid 201 to the container more stable.

Preferably, the lid 207 comprises a horizontal surface. Such horizontalsurface can allow stacking of the cup/container onto the lid 207.

Preferably, the lid top may comprise a tapered surface or surface thatis shaped in such a way that user can drink the liquid inside thecontainer comfortably. The shape may be configured to suit the face orpart of the face of the user that may come in contact with the lid topduring use.

As shown in FIGS. 27-43, the lid 201 also has a spout 207 which can bemoved between an open configuration and a closed configuration. The openconfiguration is shown in FIGS. 29, 30, 31, 32, 34, 35, 37, 40, 41 and43 and a closed configuration is shown in FIGS. 33, 36, 38, 39 and 42.

As can be seen for example in FIGS. 29 and 34, the lid 201 has anaperture 208 which liquid can flow from. The aperture 208 may beconsidered a drinking aperture to allow a user to drink the contents ofthe container 220. A user can place their lips onto the lid surroundingthe aperture to allow cup/container 220 content to be poured through theaperture into the mouth of the user. The width of the aperture 208 atthe opening of the spout 207 is preferably about 26 mm. The maximumextension of the opening of the spout 207 when in a drinkingconfiguration (open configuration) is preferably about 7 mm, however itmay be between 4 mm and 30 mm depending on the size of the containerand/or spout 207. The spout 207 and aperture 208 have been adapted suchthat they may provide a natural flow of liquid when in use in thespout's open condition, with dimensions based around for example atypical mouth size of users, liquid volumes to escape and comfortableangles for the liquid to pour into a user's mouth. The difference inheight between the two regions 204, 205, of the lid 201 creates a pitchwhich may allow liquid of the container 220 when in use to flow furtherinto a user's mouth.

From the above description and from FIGS. 29-42, it can be appreciatedthat unlike in lids 1, 101 of the previous embodiments, the spout 207 inthe lid 201 of the present embodiment extends vertically orsubstantially vertically between and preferably from the lid top to ortowards the base 202. The spout 207 is formed on the elevated annularportion 203. Hence, the orientation of the spout 207 in this embodimentis different from the orientation of the spout 7, 107 as described inthe previous embodiments. Also, the location of the spout 207 isdifferent from that of the preceding embodiments. Unlike spout 7, 107that extends along the lid top preferably over half of the distance ofthe lid top, the spout 207 extends along first region 204 of theelevated portion 203 that is in the form of an annular wall extendingupwardly relative the lip or rim of the base 202. The aperture 208 facestowards the top of the lid 201 rather than on side.

Preferably, apart from the orientation and location of the spout 207,the structure and/or shape of the spout 207 is same as the structureand/or shape of the spout 7, 107 as described above. Similarly, thehinge arrangement of the spout 207 at the periphery of the spout mayalso be same or at least similar as hinge arrangement of the spout 7,107 as described above.

A first gripping portion 251 a is formed on the elevated annular portion203 at one side of the spout 207 and similarly a second gripping portion251 b is formed on the elevated annular portion 203 at another side ofthe spout 207 as shown in FIG. 27. These gripping portions 251 a, 251 bmay facilitate gripping and pressing or squeezing using a user's fingersas shown in FIGS. 39 and 40

When the spout 207 is in a closed configuration the aperture 208 isclosed. Preferably the closed aperture 208 creates a seal sufficient tohelp prevent liquid from the egressing from the aperture 208. The closedconfiguration may be achieved by applying force to the end 212 of thespout 207 in the direction of the arrow 260 as shown in FIG. 35. Theseal is created between the end 212 of the spout 207 and the elevatedportion 203 for example at the top portion 213 of the elevated portion203. Once force is applied in that direction (shown by arrow 260), theaperture 208 is closed as shown in FIG. 36. The force to close theaperture 208 may be applied to the end 212 of the spout 207 using user'sfinger (e.g. thumb) as shown in FIGS. 37 and 38.

The spout 207 may be retained in its closed condition by a catch 211.When the spout 207 is in a closed configuration, the spout 207 mayengage with the catch 211 as shown in the schematic FIG. 41. The way ofmanufacturing the catch 211 may be by a number of means, however in thepreferred embodiment the catch 211 is an undercut formed in the elevatedportion 203 at for example at the top portion 213 of the elevatedportion 203. The end 212 of the spout 207 can lodge under the undercutwhen the spout 207 is in the closed condition. When the spout 207 is notretained by the catch 211, it can return to its open condition. In otherembodiments the catch may be a flexible hook, barb, interference fit ormany other similar element or device or feature.

When the spout 207 is in an open configuration the aperture 208 is open.The open configuration is shown in FIGS. 29, 30, 31, 32, 34, 35, 37, 40and 41. Applying a force or squeezing the lid towards the direction ofthe arrows 265 a, 265 b as shown in FIG. 39 results in the spout 207moving from a closed configuration (shown in FIG. 39) to an openconfiguration as shown in FIG. 40. The end 212 moves relative to therest of the lid in a direction away from elevated portion 203 (i.e.towards outward direction of the lid/container) to create the opening inthe form of the aperture 208.

The preferred action of squeezing the annular base 202, or lid 201, orcontainer 220, in a direction orthogonal to the direction of the spout,and towards the centre of the annular base 202, will have the effect ofmoving the catch 211 away from the end 212 of the spout 7. In oneembodiment, where the container 220 is a circular rimmed cup, the effectof squeezing the container 220 to a more elliptical shape will move thecatch 211 away from the end 212 so as to release from the spout 207. Thespout 207 can then move or caused to be moved to its open configuration.Once the spout 207 is released from the catch 211, the spout 207 may bein the open configuration.

As shown in FIGS. 39 and 40, a preferred method to open the aperture 208is to apply a force at gripping portions 251 a, 251 b using user'sfingers. In other words, the user may use his/her fingers to squeeze thelid 207 at the gripping portion 251 a, 251 b thereby applying a force onthe lid 201 that causes the spout 207 to transition from a closedconfiguration to an open configuration. The force needs to be appliedtowards the centre of the annular base 202. As shown, the grippingportions 251 a, 251 b may comprise textured profile (hatched feature,preferably, cross-hatched feature) to facilitate gripping using user'sfingers. Such textured profile on exterior surface of the grippingportion also provides visual indication to the user regarding thelocation of the gripping portions 251 a, 251 b. Such visual indicationhelps to minimise the risk of damage or accidental spillage of contentsinside the container 220 due to application of force at the incorrectportion of the lid 207.

Another method of releasing the spout 207, is to pull the catch 211 awayfrom the end 212. A further method of releasing the spout 207, is topull up on the spout 207 and in order to facilitate pulling of the spout207, the end 212 may comprise a tab (not shown) that is similar to tab9, 109 as described above in the previous embodiments. The effect ofpulling on the tab of the spout 207 will merely bend the spout 207 sothat it can get out from underneath the catch 211.

The spout 207 and aperture 208 may be adapted such that they help toprovide a natural flow of liquid when open and in use. The dimensions ofthe spout 207 and aperture 208 may be based around at least one of (a)typical mouth size of users (b) liquid volumes to escape and (c)comfortable angles for the liquid to pour into a user's mouth.

As shown in FIG. 43, the lid 201 may optionally comprise air circulationhole 270 on lid top. Such air circulation hole 270 can help improveliquid flow. Air circulation hole 270 may assist in pressure regulation.The air circulation hole can also provide ventilation.

In use, a user places the annular rim of the base 202 around thecircumference of a drinking edge of the container 220. If an innerannular wall is present, such inner annular wall is present inside thecontainer such that a secure fit is made. A user can then decide whetherto keep the spout 207 closed to transport the contained liquid and helpmaintain the temperature of the liquid or to open the spout 207 byeither popping the spout 207 open or by applying force on the grippingportions 251 a, 251 b towards the direction of the inside of thecontainer 220 which results in the spout 207 moving to a drinking oropen configuration. Once the spout 207 is in the open or drinkingconfiguration a user can drink the liquid contained within the containervia the aperture 208. As the spout 207 can be opened and closed the usercan either finish drinking all the liquid or close the spout 207 anddrink the remaining liquid at a later point in time.

Therefore, it will be appreciated that the lid 1, 101, 201 comprises aformation in a non-peripheral region that is able to be pressed oralready pressed, to a condition that at least substantially closes aflowable material egress opening (i.e. aperture 8, 108, 208). Theformation is able to be released from that condition to allow materialegress from the container via the material egress opening. The formationmay be a spout 7, 107, 207. It will be appreciated that the lid 1, 101,201 and its various parts can be produced in a range of different sizes.It will also be appreciated that the lid 1, 101 201, can be made in anumber of different ways such as injection formed, vacuum formed,compression molding, pressure forming, and hydro forming etc. The lid 1,101, 201 can also be made from a number of different materials howevermost preferably the lid is made from plastic and most preferably abiodegradable plastic.

In one preferred embodiment the lid 1, 101 201 is made substantiallyfrom CPLA (crystallised polylactic) which is a compostable polymer. Inanother preferred embodiment the lid 1, 101, 201 is made substantiallyfrom PP (polypropylene). In another preferred embodiment the lid 1, 101,201 is made substantially from PP (polypropylene) at 0.5 mm gauge.

The opening of the spout may be of many sizes. In the most preferredform the flow area is at around 1.2 cm^2. A typical range may be 0.8cm^2 to 1.5 cm^2.

The two diameters of the lids may for example be, ‘Regular’ and ‘Large’which are 80 mm and 90 mm respectively.

The lid 1, 101 may optionally comprise air circulation hole similar tocirculation hole 270 on lid top in order to improve liquid flow. The lid1, 101, 201 has a number of benefits and advantages over known lids. Itcan be opened and closed by the user which minimises accidentalspillage. When closed the spout also helps to maintain the temperatureof the liquid in the container for longer. The lid is also user friendlyas is easy to use and allows liquid to escape in a more ergonomicfashion when the spout is open. The inner wall 6, 106 of the lid 1, 101also makes the lid 1, 101 to container connection more secure than knownlids. Such inner walls may also be present in lid 201. The simplesqueezing manner that allows the spout 7, 107, 207 to move/transition toits open configuration is an important aspect of at least someembodiments of invention. The simple squeezing manner can be performedwith one hand, while the same hand can also be used to carry thecontainer.

Although in the preferred embodiments the lid 1, 101, 201 is for acontainer it will be appreciated by those skilled in the art that thelid 1, 101, 201 could be used on other items for example the lid 1,101,201 could be used for any type of container which has an open topwhich flowable material such as a liquid or granular solids (e.g. sugar)or paste or sauce or the like is poured out of.

It will be appreciated that having a spout 7, 107, 207 and aperture 8,108, 208 of a particular shape/structure as shown in the drawings isadvantageous as such triangular and convex shape/structure does notallow ice cubes to fully block flow of liquid from the aperture 8, 108,208. Further such shape/structure is adapted to suit drinking thicker ormore viscous liquids such as smoothies or milkshakes.

It is to be understood that even though numerous characteristics andadvantages of the various embodiments of the present invention have beenset forth in the foregoing description, together with details of thestructure and functioning of various embodiments of the invention, thisdisclosure is illustrative only, and changes may be made in detail solong as the functioning of the invention is not adversely affected. Forexample, the particular elements of the lid 1, 101 such as the base 2,102, internal wall 6, 106, elevated portion 3, 103, spout 7, 107 and tab9, 109 may vary dependent on the particular application for which it isused without variation in the spirit and scope of the present invention.

Where in the foregoing description reference has been made to elementsor integers having known equivalents, then such equivalents are includedas if they were individually set forth.

Although the invention has been described by way of example and withreference to particular embodiments, it is to be understood thatmodifications and/or improvements may be made without departing from thescope or spirit of the invention.

What is claimed is:
 1. A lid for closing an opening of a container thatis adapted to contain a flowable material, the lid comprising aperipheral region engaging, or able to engage, about, within, or bothabout and within, the container, and a non-peripheral region inwardly ofthe peripheral region; wherein the non-peripheral region has aformation, the formation being i. able to be pressed or already pressed,to a closed condition that at least substantially closes a flowablematerial egress opening of the non-peripheral region, and ii. able to bereleased from the closed condition to an open condition to allowmaterial egress from the container via the material egress opening. 2.The lid as claimed in claim 1, wherein the formation is a spout.
 3. Thelid as claimed in claim 1, wherein the formation is triangular in shapehaving a base adjacent the material egress opening and an apex that ismore proximate an opposed edge of the non-peripheral region.
 4. The lidas claimed in claim 1, wherein the formation is live hinged save forwhere it is to define part of the material egress opening.
 5. The lid asclaimed in claim 4, wherein the live hinging is in a depression of thenon-peripheral region preferably thereby to enable retention of part ofthe formation inwardly of the peripheral region.
 6. The lid as claimedin claim 4, wherein when not retained, the formation assumes a stablecondition above the peripheral region.
 7. The lid as claimed in claim 1,wherein the peripheral region is annular.
 8. The lid as claimed in claim1, wherein the formation is biased to the open condition.
 9. The lid asclaimed in claim 1, wherein the formation extends across over half ofdistance of the non-peripheral region inwardly of the peripheral region.10. The lid as claimed in claim 1, comprising a catch that is adapted tocapture of part of the formation for retaining the formation in itsclosing condition.
 11. The lid as claimed in claim 1, wherein thematerial egress opening is in part arcuate.
 12. The lid as claimed inclaim 1, wherein the lid comprises an annular internal extensionprojecting downwardly from or relative to the base, the annular internalextension being configured to fit at least partially inside thecontainer during use.
 13. The lid as claimed in claim 1, wherein theformation extends from or proximal to a lid top to or towards a base ofthe lid with the material egress opening facing towards the lid top orupwardly.
 14. The lid as claimed in claim 1, wherein the lid furthercomprises a first gripping portion formed at one side of the formationand a second gripping portion formed on at another side of the spout,wherein squeezing of the first and second gripping portions is adaptedto cause the formation to transition from the closed condition to theopen condition.
 15. The lid as claimed in claim 1, wherein applying theforce on the formation towards the peripheral region is adapted to causethe formation to transition from the open condition to the closedcondition.
 16. The lid as claimed in claim 1, wherein the lid furthercomprises an air circulation hole for improving the fluid flow.
 17. Thelid as claimed in claim 1, wherein the lid comprises a horizontalsurface allow stacking of the container onto the lid.
 18. A lid forcovering a rim defined open end of a container for containing a flowablematerial, the lid comprising: an annular base adapted to detachablyengage the rim of the container; an elevated wall portion projectingupwardly from the annular base; and a spout; the lid arranged and formedsuch that when in use, with a container containing a flowable materialand the lid is fitted to the container, a user is able to move the spoutbetween a closed configuration which closes the open end of thecontainer such that the material is substantially prevented fromescaping from the container and an open configuration which allows auser to pour the material contained within the container and alsowherein in use the lid is adapted such that a user can squeeze thecontainer or the lid which results in the spout moving from the closedconfiguration to the open configuration.
 19. A lid for closing, anopening of a container that is able to contain a flowable material, thelid comprising a peripheral region engaging, or able to engage, about,within or both about and within the container at the opening of thecontainer and a lid top provided inwardly of the peripheral region;wherein the lid top includes an integrally formed spout formation that,by a live hinge, is substantially separated from the rest of the lidtop, the spout formation: i. able to be pressed, or already pressed, ina direction towards the container when engaged to the container, to aretainable or retained condition that at least substantially closes aflowable material egress opening of the non-peripheral region and ii.able to be released from that condition to move away from the containerwhen engaged to the container to allow flowable material egress via theopening.
 20. A lid to releasably engage to the rim of an open topped cupor container, the lid comprising a. a lip engaging, or able to engage,about, within or both about and within the rim of the container, b. anannular wall extending upwardly relative the lip, c. a lid top at thetop of the annular wall the lid top comprising an elongate formationpresenting an spout, the end of which is elevated above the annular walland defines a closable opening with and at the annular wall via whichmaterial in the container can egress, the formation separated at leastpartially from the remainder of the lid top by a live hinge to allow: i.the spout to be depressed towards the lip to cause the end of the spoutto contact the annular wall to thereby close the closable opening, andii. the lid top to be compressed in a direction lateral to the elongatedirection of the formation to deform the spout and the annular wall.